//=========================================================================
//  Copyright (c) Kitware, Inc.
//  All rights reserved.
//  See LICENSE.txt for details.
//
//  This software is distributed WITHOUT ANY WARRANTY; without even
//  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
//  PURPOSE.  See the above copyright notice for more information.
//=========================================================================

#include "smtk/io/XmlDocV3Parser.h"
#define PUGIXML_HEADER_ONLY
// NOLINTNEXTLINE(bugprone-suspicious-include)
#include "pugixml/src/pugixml.cpp"

#include "smtk/io/ItemDefinitionsHelper.h"

#include "smtk/attribute/Attribute.h"
#include "smtk/attribute/ComponentItem.h"
#include "smtk/attribute/ComponentItemDefinition.h"
#include "smtk/attribute/CustomItem.h"
#include "smtk/attribute/CustomItemDefinition.h"
#include "smtk/attribute/DateTimeItem.h"
#include "smtk/attribute/DateTimeItemDefinition.h"
#include "smtk/attribute/Definition.h"
#include "smtk/attribute/DirectoryItem.h"
#include "smtk/attribute/DirectoryItemDefinition.h"
#include "smtk/attribute/DoubleItem.h"
#include "smtk/attribute/DoubleItemDefinition.h"
#include "smtk/attribute/FileItem.h"
#include "smtk/attribute/FileItemDefinition.h"
#include "smtk/attribute/GroupItem.h"
#include "smtk/attribute/GroupItemDefinition.h"
#include "smtk/attribute/IntItem.h"
#include "smtk/attribute/IntItemDefinition.h"
#include "smtk/attribute/Item.h"
#include "smtk/attribute/ItemDefinition.h"
#include "smtk/attribute/ReferenceItem.h"
#include "smtk/attribute/ReferenceItemDefinition.h"
#include "smtk/attribute/ResourceItem.h"
#include "smtk/attribute/ResourceItemDefinition.h"
#include "smtk/attribute/StringItem.h"
#include "smtk/attribute/StringItemDefinition.h"
#include "smtk/attribute/VoidItem.h"
#include "smtk/attribute/VoidItemDefinition.h"

#include "smtk/common/DateTimeZonePair.h"
#include "smtk/common/StringUtil.h"

#include "smtk/model/Entity.h"
#include "smtk/model/EntityRef.h"

#include "smtk/resource/Component.h"
#include "smtk/resource/ComponentLinks.h"
#include "smtk/resource/Lock.h"
#include "smtk/resource/Resource.h"
#include "smtk/resource/ResourceLinks.h"

using namespace pugi;
using namespace smtk::io;
using namespace smtk::attribute;
using namespace smtk;

namespace
{
// Helper functions to set part of a configuration - returns false if it encounters a problem
bool setExclusiveAnalysisConfiguration(StringItemPtr& item, xml_node& analysisNode, Logger& logger);

template<typename ContainerPtrType>
bool setAnalysisConfigurationHelper(
  ContainerPtrType& container,
  xml_node& analysisNode,
  Logger& logger)
{
  // First get the type of Analysis this node represents
  auto xatt = analysisNode.attribute("Type");
  if (!xatt)
  {
    smtkErrorMacro(logger, "Analysis node is missing Type xml attribute: " << container->name());
    return false;
  }
  // Lets find the item that this analysis corresponds to
  ItemPtr item = container->find(xatt.value(), smtk::attribute::IMMEDIATE);
  if (!item)
  {
    smtkErrorMacro(
      logger, "Can not find analysis: " << xatt.value() << " under: " << container->name());
    return false;
  }
  // Set this to be enabled
  item->setIsEnabled(true);
  // Lets see what kind of item we have
  auto voidItem = std::dynamic_pointer_cast<VoidItem>(item);
  // Simple analysis with no children
  if (voidItem)
  {
    // in this case we should not have any children
    if (analysisNode.child("Analysis"))
    {
      smtkWarningMacro(
        logger,
        "Analysis: "
          << xatt.value() << " under: " << container->name()
          << " does not have children analyses but children where specified in the configuration."
          << " These will be ignored!");
    }
    return true;
  }

  // Exclusive Analyses are represented as a String Item with Discrete Values
  // One value for each of its child Analysis
  auto stringItem = std::dynamic_pointer_cast<StringItem>(item);
  if (stringItem)
  {
    // This node should have children
    if (!analysisNode.child("Analysis"))
    {
      smtkErrorMacro(
        logger,
        "Configuration for Exclusive Analysis: " << xatt.value() << " under: " << container->name()
                                                 << " does not specify children."
                                                 << " Can not build configuration.");
      return false;
    }
    for (auto child = analysisNode.child("Analysis"); child; child = child.next_sibling("Analysis"))
    {
      if (!setExclusiveAnalysisConfiguration(stringItem, child, logger))
      {
        return false;
      }
    }
    return true;
  }
  // Non Exclusive Analyses are represented as a Group Item
  auto groupItem = std::dynamic_pointer_cast<GroupItem>(item);
  if (!groupItem)
  {
    // OK we found something unexpected
    smtkErrorMacro(
      logger,
      "Invalid item found for Analysis: " << xatt.value() << " under: " << container->name()
                                          << " Can not build configuration.");
    return false;
  }
  // Process the children - note that in the case of a non-exclusive analysis, you don't
  // have to have children specified in the configuration
  for (auto child = analysisNode.child("Analysis"); child; child = child.next_sibling("Analysis"))
  {
    if (!setAnalysisConfigurationHelper<GroupItemPtr>(groupItem, child, logger))
    {
      return false;
    }
  }
  return true;
}

bool setExclusiveAnalysisConfiguration(StringItemPtr& item, xml_node& analysisNode, Logger& logger)
{
  // First get the type of Analysis this node represents
  auto xatt = analysisNode.attribute("Type");
  if (!xatt)
  {
    smtkErrorMacro(logger, "Analysis node is missing Type xml attribute: " << item->name());
    return false;
  }
  // Lets find the discrete index that corresponds to this value
  if (!item->setValue(xatt.value()))
  {
    smtkErrorMacro(logger, "Can not find analysis: " << xatt.value() << " under: " << item->name());
    return false;
  }

  if (item->numberOfActiveChildrenItems())
  {
    // Are this analysis' children exclusive or not:
    auto stringItem = std::dynamic_pointer_cast<StringItem>(item->activeChildItem(0));

    // Does this node have children?
    if (analysisNode.child("Analysis"))
    {
      if (stringItem)
      {
        for (auto child = analysisNode.child("Analysis"); child;
             child = child.next_sibling("Analysis"))
        {
          if (!setExclusiveAnalysisConfiguration(stringItem, child, logger))
          {
            return false;
          }
        }
        return true;
      }

      auto groupItem = std::dynamic_pointer_cast<GroupItem>(item->activeChildItem(0));
      if (groupItem == nullptr)
      {
        smtkErrorMacro(
          logger,
          "Analysis: "
            << xatt.value() << " under: " << item->name()
            << " does not have proper children analyses structure!  Can not build configuration: "
            << item->attribute()->name());
        return false;
      }
      for (auto child = analysisNode.child("Analysis"); child;
           child = child.next_sibling("Analysis"))
      {
        if (!setAnalysisConfigurationHelper<GroupItemPtr>(groupItem, child, logger))
        {
          return false;
        }
      }
      return true;
    }
    // Do we have an exclusive child analysis?
    else if (stringItem)
    {
      smtkErrorMacro(
        logger,
        "Analysis: " << xatt.value() << " under: " << item->name()
                     << " has exclusive children analyses but no children "
                        "where specified in the configuration."
                     << " Can not build configuration.");
      return false;
    }
    return true;
  }
  else if (analysisNode.child("Analysis"))
  {
    smtkWarningMacro(
      logger,
      "Analysis: "
        << xatt.value() << " under: " << item->name()
        << " does not have children analyses but children where specified in the configuration."
        << " These will be ignored!");
  }
  return true;
}
} // namespace

XmlDocV3Parser::XmlDocV3Parser(ResourcePtr myResource, smtk::io::Logger& logger)
  : XmlDocV2Parser(myResource, logger)
{
}

XmlDocV3Parser::~XmlDocV3Parser() = default;

void XmlDocV3Parser::process(pugi::xml_node& rootNode)
{
  XmlDocV2Parser::process(rootNode);

  auto configurationsNode = rootNode.child("Configurations");
  if (configurationsNode)
  {
    this->processConfigurations(configurationsNode);
  }

  this->getUniqueRoles(rootNode);

  auto associationsNode = rootNode.child("Associations");
  if (!associationsNode)
  {
    return;
  }
  xml_node child;
  for (child = associationsNode.first_child(); child; child = child.next_sibling())
  {
    unsigned int index = child.attribute("Index").as_uint();
    std::string typeName = child.attribute("TypeName").value();
    smtk::common::UUID id(child.attribute("Id").value());
    std::string location = child.attribute("Location").value();
    m_resource->links().data().insert(
      smtk::resource::Surrogate(index, typeName, id, location),
      smtk::common::UUID::random(),
      m_resource->id(),
      id,
      Resource::AssociationRole);
  }
}

bool XmlDocV3Parser::canParse(pugi::xml_document& doc)
{
  // Get the attribute resource node
  xml_node amnode = doc.child("SMTK_AttributeResource");
  if (amnode.empty())
  {
    return false;
  }

  pugi::xml_attribute xatt = amnode.attribute("Version");
  if (!xatt)
  {
    return false;
  }

  int versionNum = xatt.as_int();
  return versionNum == 3;
}

bool XmlDocV3Parser::canParse(pugi::xml_node& node)
{
  // Check the name of the node
  std::string name = node.name();
  if (name != "SMTK_AttributeResource")
  {
    return false;
  }

  pugi::xml_attribute xatt = node.attribute("Version");
  if (!xatt)
  {
    return false;
  }

  int versionNum = xatt.as_int();
  return versionNum == 3;
}

pugi::xml_node XmlDocV3Parser::getRootNode(pugi::xml_document& doc)
{
  xml_node amnode = doc.child("SMTK_AttributeResource");
  return amnode;
}

void XmlDocV3Parser::process(pugi::xml_document& doc)
{
  // Get the attribute resource node
  xml_node amnode = doc.child("SMTK_AttributeResource");

  // Check that there is content
  if (amnode.empty())
  {
    smtkWarningMacro(m_logger, "Missing SMTK_AttributeResource element");
    return;
  }

  this->process(amnode);
}

void XmlDocV3Parser::getUniqueRoles(xml_node& rootNode)
{
  xml_node cnode, node = rootNode.child("UniqueRoles");
  pugi::xml_attribute xatt;
  int role = xatt.as_int();
  std::string nodeName;

  if (!node)
  {
    return;
  }
  for (cnode = node.first_child(); cnode; cnode = cnode.next_sibling())
  {
    nodeName = cnode.name();
    if (nodeName != "Role")
    {
      continue;
    }
    xatt = cnode.attribute("ID");
    if (!xatt)
    {
      continue;
    }
    role = xatt.as_int();
    m_resource->addUniqueRole(role);
  }
}

void XmlDocV3Parser::processExclusion(xml_node& excludeNode)
{
  // Each exclusion element has a list of type names
  // that exclude each other
  xml_node child;
  // First lets convert the strings to definitions
  std::vector<DefinitionPtr> defs;
  for (child = excludeNode.first_child(); child; child = child.next_sibling())
  {
    const auto* tname = child.text().get();
    auto def = m_resource->findDefinition(tname);
    if (def != nullptr)
    {
      defs.push_back(def);
    }
    else
    {
      smtkWarningMacro(m_logger, "Cannot find exclusion definiion: " << tname);
    }
  }
  // We need atleast 2 definitions to exclude
  size_t i, j, n = defs.size();
  if (n < 2)
  {
    return; // there is nothing to do
  }
  for (i = 0; i < n; i++)
  {
    for (j = i + 1; j < n; j++)
    {
      defs[i]->addExclusion(defs[j]);
    }
  }
}
void XmlDocV3Parser::processPrerequisite(xml_node& prereqNode)
{
  // Each Prerequisite element has a type attribute and vector of type names
  // that it depends on
  // First lets get the type
  auto typeAtt = prereqNode.attribute("Type");
  if (!typeAtt)
  {
    smtkWarningMacro(m_logger, "Cannot find type XML attribute");
    return;
  }
  auto targetDef = m_resource->findDefinition(typeAtt.value());
  if (targetDef == nullptr)
  {
    smtkWarningMacro(m_logger, "Cannot find target definiion: " << typeAtt.value());
    return;
  }
  xml_node child;
  // First lets convert the strings to definitions
  std::vector<DefinitionPtr> defs;
  for (child = prereqNode.first_child(); child; child = child.next_sibling())
  {
    const auto* tname = child.text().get();
    auto def = m_resource->findDefinition(tname);
    if (def != nullptr)
    {
      defs.push_back(def);
    }
    else
    {
      smtkWarningMacro(m_logger, "Cannot find prerequisite definiion: " << tname);
    }
  }
  size_t i, n = defs.size();
  if (n == 0)
  {
    return; // there is nothing to do
  }
  for (i = 0; i < n; i++)
  {
    targetDef->addPrerequisite(defs[i]);
  }
}

void XmlDocV3Parser::processDefinitionInformation(xml_node& root)
{
  // First process the Definition Section
  this->XmlDocV2Parser::processDefinitionInformation(root);
  // Next process the Exclusion Section
  xml_node child, node = root.child("Exclusions");
  if (node)
  {
    for (child = node.first_child(); child; child = child.next_sibling())
    {
      this->processExclusion(child);
    }
  }

  node = root.child("Prerequisites");
  if (node)
  {
    for (child = node.first_child(); child; child = child.next_sibling())
    {
      this->processPrerequisite(child);
    }
  }
}

void XmlDocV3Parser::processDefinition(xml_node& defNode, DefinitionPtr def)
{
  Categories::Set::CombinationMode catMode;
  //need to process Categories and Tags added in V3
  this->XmlDocV2Parser::processDefinition(defNode, def);
  //This is the old style of category information
  xml_attribute ccm = defNode.attribute("CategoryCheckMode");
  if (XmlDocV1Parser::getCategoryComboMode(ccm, catMode))
  {
    def->localCategories().setInclusionMode(catMode);
  }
  xml_node catNodes = defNode.child("Categories");
  xml_node catInfoNode = defNode.child("CategoryInfo");
  xml_node child;
  //Current Category Structure
  if (catInfoNode)
  {
    catInfoNode.append_attribute("Inherit") = def->isOkToInherit();
    // Lets get the overall combination mode
    ccm = catInfoNode.attribute("Combination");
    auto& localCats = def->localCategories();
    // Are we inheriting categories?
    auto xatt = catInfoNode.attribute("Inherit");
    if (xatt)
    {
      def->setIsOkToInherit(xatt.as_bool());
    }

    if (XmlDocV1Parser::getCategoryComboMode(ccm, catMode))
    {
      localCats.setCombinationMode(catMode);
    }
    // Get the Include set (if one exists)
    xml_node catGroup;
    catGroup = catInfoNode.child("Include");
    if (catGroup)
    {
      // Lets get the include combination mode
      ccm = catGroup.attribute("Combination");
      if (XmlDocV1Parser::getCategoryComboMode(ccm, catMode))
      {
        localCats.setInclusionMode(catMode);
      }
      for (child = catGroup.first_child(); child; child = child.next_sibling())
      {
        localCats.insertInclusion(child.text().get());
      }
    }
    catGroup = catInfoNode.child("Exclude");
    if (catGroup)
    {
      // Lets get the include combination mode
      ccm = catGroup.attribute("Combination");
      if (XmlDocV1Parser::getCategoryComboMode(ccm, catMode))
      {
        localCats.setExclusionMode(catMode);
      }
      for (child = catGroup.first_child(); child; child = child.next_sibling())
      {
        localCats.insertExclusion(child.text().get());
      }
    }
  }
  //Old Style
  else if (catNodes)
  {
    for (xml_node child = catNodes.first_child(); child; child = child.next_sibling())
    {
      def->localCategories().insertInclusion(child.text().get());
    }
  }

  xml_node tagsNode = defNode.child("Tags");
  if (tagsNode)
  {
    for (xml_node tagNode = tagsNode.child("Tag"); tagNode; tagNode = tagNode.next_sibling("Tag"))
    {
      xml_attribute name_att = tagNode.attribute("Name");
      std::string values = tagNode.text().get();
      if (values.empty())
      {
        bool success = def->addTag(smtk::attribute::Tag(name_att.value()));
        if (!success)
        {
          smtkWarningMacro(m_logger, "Could not add tag \"" << name_att.value() << "\"");
        }
      }
      else
      {
        xml_attribute sep_att = tagNode.attribute("Sep");
        std::string sep = sep_att ? sep_att.value() : ",";
        std::vector<std::string> vals = smtk::common::StringUtil::split(values, sep, false, false);
        bool success = def->addTag(
          smtk::attribute::Tag(name_att.value(), std::set<std::string>(vals.begin(), vals.end())));
        if (!success)
        {
          smtkWarningMacro(m_logger, "Could not add tag \"" << name_att.value() << "\"");
        }
      }
    }
  }
}

void XmlDocV3Parser::processAssociationDef(xml_node& node, DefinitionPtr def)
{
  std::string assocName = node.attribute("Name").value();
  if (assocName.empty())
  {
    assocName = def->type() + "Associations";
  }
  ReferenceItemDefinitionPtr assocDef =
    smtk::dynamic_pointer_cast<ReferenceItemDefinition>(ReferenceItemDefinition::New(assocName));
  this->processReferenceDef(node, assocDef);
  // We don't want reference items to handle "MembershipMask" but we do need
  // to support AssociationsDef entries with a MembershipMask. So add that here:
  xml_node mmask = node.child("MembershipMask");
  if (mmask)
  {
    assocDef->setAcceptsEntries("smtk::model::Resource", mmask.text().as_string(), true);
  }

  // We want the ability to restrict associations to only allow resources. This
  // feature is unnecessary for reference items in general, since the same
  // functionality can be achieved with a ResourceItem.
  xml_attribute onlyResources = node.attribute("OnlyResources");
  if (onlyResources.as_bool())
  {
    assocDef->setOnlyResources(true);
  }

  def->setLocalAssociationRule(assocDef);
}

void XmlDocV3Parser::processDateTimeDef(
  pugi::xml_node& node,
  attribute::DateTimeItemDefinitionPtr idef)
{
  // Process the common value item def stuff
  this->processItemDef(node, idef);

  xml_attribute xatt;
  xatt = node.attribute("NumberOfRequiredValues");
  std::size_t numberOfComponents = idef->numberOfRequiredValues();
  if (xatt)
  {
    numberOfComponents = xatt.as_uint();
    idef->setNumberOfRequiredValues(numberOfComponents);
  }

  xatt = node.attribute("DisplayFormat");
  if (xatt)
  {
    idef->setDisplayFormat(xatt.value());
  }

  xatt = node.attribute("ShowTimeZone");
  if (xatt)
  {
    idef->setUseTimeZone(xatt.as_bool());
  }

  xatt = node.attribute("ShowCalendarPopup");
  if (xatt)
  {
    idef->setEnableCalendarPopup(xatt.as_bool());
  }

  xml_node dnode = node.child("DefaultValue");
  if (dnode)
  {
    ::smtk::common::DateTimeZonePair dtz;
    std::string content = dnode.text().get();
    dtz.deserialize(content);
    idef->setDefaultValue(dtz);
  }
}

void XmlDocV3Parser::processDateTimeItem(pugi::xml_node& node, attribute::DateTimeItemPtr item)
{
  xml_attribute natt = node.attribute("NumberOfValues");
  if (!natt)
  {
    // Single value
    item->setNumberOfValues(1);
    xml_node noVal = node.child("UnsetVal");
    if (!noVal)
    {
      ::smtk::common::DateTimeZonePair dtz;
      std::string content = node.text().get();
      dtz.deserialize(content);
      item->setValue(dtz);
    }
  }
  else
  {
    // Multiple values
    std::size_t n = natt.as_uint();
    item->setNumberOfValues(n);
    xml_node valsNode = node.child("Values");
    if (valsNode)
    {
      for (xml_node val = valsNode.first_child(); val; val = val.next_sibling())
      {
        std::string nodeName = val.name();
        if (nodeName == "UnsetVal")
        {
          continue;
        }
        xml_attribute ixatt = val.attribute("Ith");
        if (!ixatt)
        {
          smtkErrorMacro(m_logger, "XML Attribute Ith is missing for Item: " << item->name());
          continue;
        }
        unsigned int i = ixatt.as_uint();
        if (i >= n)
        {
          smtkErrorMacro(
            m_logger, "XML Attribute Ith = " << i << " is out of range for Item: " << item->name());
          continue;
        }
        if (nodeName == "Val")
        {
          ::smtk::common::DateTimeZonePair dtz;
          std::string content = val.text().get();
          dtz.deserialize(content);
          item->setValue(static_cast<int>(i), dtz);
        }
        else
        {
          smtkErrorMacro(m_logger, "Unsupported Value Node Type  Item: " << item->name());
        } // else
      }   // for (val)
    }     // if (valsNode)
  }       // else
}

void XmlDocV3Parser::processReferenceItem(pugi::xml_node& node, ReferenceItemPtr item)
{
  xml_attribute xatt;
  xml_node valsNode;
  std::size_t i, n = item->numberOfValues();
  smtk::common::UUID uid;
  xml_node val;
  std::size_t numRequiredVals = item->numberOfRequiredValues();
  std::string attName;
  if (!numRequiredVals || item->isExtensible())
  {
    // The node should have an attribute indicating how many values are
    // associated with the item
    xatt = node.attribute("NumberOfValues");
    if (!xatt)
    {
      smtkErrorMacro(
        m_logger, "XML Attribute NumberOfValues is missing for Item: " << item->name());
      return;
    }
    n = xatt.as_uint();
    item->setNumberOfValues(n);
  }
  if (!n)
  {
    return;
  }

  // Process the children items of this Item
  xml_node values, childNode, childrenNodes, inode;
  childrenNodes = node.child("ChildrenItems");
  if (childrenNodes)
  {
    // Process all of the children items in the item w/r to the XML
    // NOTE That the writer processes the items in order - lets assume
    // that for speed and if that fails we can try to search for the correct
    // xml node
    std::map<std::string, attribute::ItemPtr>::const_iterator iter;
    const std::map<std::string, attribute::ItemPtr>& childrenItems = item->childrenItems();
    for (childNode = childrenNodes.first_child(), iter = childrenItems.begin();
         (iter != childrenItems.end()) && childNode;
         iter++, childNode = childNode.next_sibling())
    {
      // See if the name of the item matches the name of node
      xatt = childNode.attribute("Name");
      if (!xatt)
      {
        smtkErrorMacro(
          m_logger, "Bad Child Item for Item : " << item->name() << "- missing XML Attribute Name");
        inode = childrenNodes.find_child_by_attribute("Name", iter->second->name().c_str());
      }
      else
      {
        // Is the ith xml node the same as the ith item of the attribute?
        if (iter->second->name() == xatt.value())
        {
          inode = childNode;
        }
        else
        {
          inode = childrenNodes.find_child_by_attribute("Name", iter->second->name().c_str());
        }
      }
      if (!inode)
      {
        smtkErrorMacro(
          m_logger,
          "Can not locate XML Child Item node :" << iter->second->name()
                                                 << " for Item : " << item->name());
        continue;
      }
      this->processItem(inode, iter->second);
    }
    if (childNode || (iter != childrenItems.end()))
    {
      smtkErrorMacro(
        m_logger, "Number of Children Items does not match XML for Item : " << item->name());
    }
  }

  valsNode = node.child("Values");
  if (valsNode)
  {
    for (val = valsNode.child("Val"); val; val = val.next_sibling("Val"))
    {
      xatt = val.attribute("Ith");
      if (!xatt)
      {
        smtkErrorMacro(m_logger, "XML Attribute Ith is missing for Item: " << item->name());
        continue;
      }
      i = xatt.as_uint();
      if (i >= n)
      {
        smtkErrorMacro(
          m_logger, "XML Attribute Ith = " << i << " is out of range for Item: " << item->name());
        continue;
      }

      auto& links = item->attribute()->resource()->links().data();

      xml_node keyNode = val.child("Key");
      ReferenceItem::Key key(
        smtk::common::UUID(keyNode.child("_1_").text().get()),
        smtk::common::UUID(keyNode.child("_2_").text().get()));
      item->setObjectKey(static_cast<int>(i), key);

      xml_node rhsNode = val.child("RHS");
      smtk::common::UUID rhs1(rhsNode.child("_1_").text().get());
      smtk::common::UUID rhs2(rhsNode.child("_2_").text().get());

      xatt = val.attribute("Role");
      int role = xatt.as_int();

      xml_node surrogateNode = val.child("Surrogate");
      unsigned int surrogateIndex = surrogateNode.attribute("Index").as_uint();
      std::string surrogateTypeName(surrogateNode.attribute("TypeName").as_string());
      smtk::common::UUID surrogateId(surrogateNode.attribute("Id").as_string());
      std::string surrogateLocation(surrogateNode.attribute("Location").as_string());

      if (!links.contains(key.first))
      {
        links.insert(
          smtk::resource::Surrogate(
            surrogateIndex, surrogateTypeName, surrogateId, surrogateLocation),
          key.first,
          item->attribute()->resource()->id(),
          rhs1);
      }

      links.value(key.first).insert(key.second, item->attribute()->id(), rhs2, role);
    }
  }
  else if (numRequiredVals == 1)
  {
    xatt = node.attribute("Conditional");
    std::size_t conditional =
      (xatt) ? xatt.as_uint() : attribute::ReferenceItemDefinition::s_invalidIndex;

    val = node.child("Val");
    if (val)
    {
      auto& links = item->attribute()->resource()->links().data();

      xml_node keyNode = val.child("Key");
      ReferenceItem::Key key(
        smtk::common::UUID(keyNode.child("_1_").text().get()),
        smtk::common::UUID(keyNode.child("_2_").text().get()));
      item->setObjectKey(0, key, conditional);

      xml_node rhsNode = val.child("RHS");
      smtk::common::UUID rhs1(rhsNode.child("_1_").text().get());
      smtk::common::UUID rhs2(rhsNode.child("_2_").text().get());

      xatt = val.attribute("Role");
      int role = xatt.as_int();

      xml_node surrogateNode = val.child("Surrogate");
      unsigned int surrogateIndex = surrogateNode.attribute("Index").as_uint();
      std::string surrogateTypeName(surrogateNode.attribute("TypeName").as_string());
      smtk::common::UUID surrogateId(surrogateNode.attribute("Id").as_string());
      std::string surrogateLocation(surrogateNode.attribute("Location").as_string());

      if (!links.contains(key.first))
      {
        links.insert(
          smtk::resource::Surrogate(
            surrogateIndex, surrogateTypeName, surrogateId, surrogateLocation),
          key.first,
          item->attribute()->resource()->id(),
          rhs1);
      }

      links.value(key.first).insert(key.second, item->attribute()->id(), rhs2, role);
    }
  }
  else
  {
    smtkErrorMacro(m_logger, "XML Node Values is missing for Item: " << item->name());
  }
}

void XmlDocV3Parser::processReferenceDef(
  pugi::xml_node& node,
  ReferenceItemDefinitionPtr idef,
  const std::string& labelsElement)
{
  xml_node accepts, rejects, labels, child;
  xml_attribute xatt;
  int i;
  this->processItemDef(node, idef);

  accepts = node.child("Accepts");
  if (accepts)
  {
    std::string resourceName("Resource");
    for (child = accepts.first_child(); child; child = child.next_sibling())
    {
      if (child.name() == resourceName)
      {
        idef->setAcceptsEntries(
          child.attribute("Name").value(), child.attribute("Filter").value(), true);
      }
    }
  }

  rejects = node.child("Rejects");
  if (rejects)
  {
    std::string resourceName("Resource");
    for (child = rejects.first_child(); child; child = child.next_sibling())
    {
      if (child.name() == resourceName)
      {
        idef->setRejectsEntries(
          child.attribute("Name").value(), child.attribute("Filter").value(), true);
      }
    }
  }

  xatt = node.attribute("EnforceCategories");
  if (xatt)
  {
    idef->setEnforcesCategories(xatt.as_bool());
  }

  xatt = node.attribute("LockType");
  if (xatt)
  {
    if (strcmp(xatt.as_string(), "DoNotLock") == 0)
    {
      idef->setLockType(smtk::resource::LockType::DoNotLock);
    }
    else if (strcmp(xatt.as_string(), "Read") == 0)
    {
      idef->setLockType(smtk::resource::LockType::Read);
    }
    else
    {
      idef->setLockType(smtk::resource::LockType::Write);
    }
  }

  xatt = node.attribute("Role");
  if (xatt)
  {
    idef->setRole(xatt.as_int());
  }

  xatt = node.attribute("HoldReference");
  if (xatt)
  {
    idef->setHoldReference(xatt.as_bool());
  }

  xatt = node.attribute("NumberOfRequiredValues");
  if (xatt)
  {
    idef->setNumberOfRequiredValues(xatt.as_int());
  }

  xatt = node.attribute("Extensible");
  if (xatt)
  {
    idef->setIsExtensible(xatt.as_bool());
    xatt = node.attribute("MaxNumberOfValues");
    if (xatt)
    {
      idef->setMaxNumberOfValues(xatt.as_uint());
    }
  }

  // Lets see if there are labels
  if (node.child("Labels"))
  {
    smtkErrorMacro(
      m_logger, "Labels has been changed to " << labelsElement << " : " << idef->name());
  }
  labels = node.child(labelsElement.c_str());
  if (labels)
  {
    // Are we using a common label?
    xatt = labels.attribute("CommonLabel");
    if (xatt)
    {
      idef->setCommonValueLabel(xatt.value());
    }
    else
    {
      for (child = labels.first_child(), i = 0; child; child = child.next_sibling(), i++)
      {
        idef->setValueLabel(i, child.value());
      }
    }
  }
  // Now lets process its children items
  xml_node cinode, citemsNode = node.child("ChildrenDefinitions");

  ItemDefinitionsHelper helper;
  std::set<std::string> currentActiveBlocks;

  helper.processItemDefinitions<ReferenceItemDefinitionPtr>(
    this, citemsNode, idef, currentActiveBlocks, idef->name(), "ReferenceItemDefinition");

  // Now process the conditional information
  citemsNode = node.child("ConditionalInfo");
  for (cinode = citemsNode.first_child(); cinode; cinode = cinode.next_sibling())
  {
    std::string rquery, cquery;
    // Lets get the query strings
    xatt = cinode.attribute("Resource");
    if (xatt)
    {
      rquery = xatt.value();
    }
    xatt = cinode.attribute("Component");
    if (xatt)
    {
      cquery = xatt.value();
    }
    // if both strings are null we have an invalid conditional!
    if (rquery.empty() && cquery.empty())
    {
      smtkErrorMacro(m_logger, "Missing or Empty Query for: " << node.name());
      continue;
    }

    xml_node itemNode, itemsNode = cinode.child("Items");
    std::vector<std::string> conditionals;
    if (itemsNode)
    {
      for (itemNode = itemsNode.first_child(); itemNode; itemNode = itemNode.next_sibling())
      {
        conditionals.emplace_back(itemNode.text().get());
      }
    }

    idef->addConditional(rquery, cquery, conditionals);
  }
}

void XmlDocV3Parser::processResourceItem(pugi::xml_node& node, ResourceItemPtr item)
{
  this->processReferenceItem(node, item);
}

void XmlDocV3Parser::processResourceDef(pugi::xml_node& node, ResourceItemDefinitionPtr idef)
{
  this->processReferenceDef(node, idef, "ResourceLabels");
}

void XmlDocV3Parser::processComponentItem(pugi::xml_node& node, ComponentItemPtr item)
{
  // Is the node using the older AttRefItem format?
  std::string attRefNodeName("AttributeRef");
  if (attRefNodeName == node.name())
  {
    this->processRefItem(node, item);
    return;
  }
  this->processReferenceItem(node, item);
}

void XmlDocV3Parser::processComponentDef(pugi::xml_node& node, ComponentItemDefinitionPtr idef)
{
  // Is the node using the older AttRefItem format?
  std::string attRefNodeName("AttributeRef");
  if (attRefNodeName == node.name())
  {
    this->processRefDef(node, idef);
    return;
  }
  xml_attribute xatt;
  xatt = node.attribute("Role");
  if (xatt)
  {
    idef->setRole(xatt.as_int());
  }
  this->processReferenceDef(node, idef, "ComponentLabels");
}

void XmlDocV3Parser::processConfigurations(pugi::xml_node& configurationsNode)
{
  // First we need to build the analysis definition
  DefinitionPtr analysisDef;
  xml_attribute xatt = configurationsNode.attribute("AnalysisAttributeType");
  if (xatt)
  {
    // See if the resource has this definition already else build a new one
    analysisDef = m_resource->findDefinition(xatt.value());
    if (!analysisDef)
    {
      analysisDef = m_resource->analyses().buildAnalysesDefinition(m_resource, xatt.value());
    }
  }
  else
  {
    smtkErrorMacro(
      m_logger,
      "Configurations missing AnalysisAttributeType xml attribute - can not build configurations!");
    return;
  }

  // Sanity check - lets make sure this attribute definition has items in it
  if (analysisDef->numberOfItemDefinitions() == 0)
  {
    smtkErrorMacro(m_logger, "Configurations' Attribute Definition is empty!");
    return;
  }

  for (auto configNode = configurationsNode.child("Config"); configNode;
       configNode = configNode.next_sibling("Config"))
  {
    //Get the name of the configuration
    xatt = configNode.attribute("Name");
    if (!xatt)
    {
      smtkErrorMacro(
        m_logger, "Configuration missing Name xml attribute - skipping configuration!");
      return;
    }
    AttributePtr configAtt = m_resource->createAttribute(xatt.value(), analysisDef);
    //Lets see if there are advance read/write levels associated with it
    xatt = configNode.attribute("AdvanceReadLevel");
    if (xatt)
    {
      configAtt->setLocalAdvanceLevel(0, xatt.as_uint());
    }
    xatt = configNode.attribute("AdvanceWriteLevel");
    if (xatt)
    {
      configAtt->setLocalAdvanceLevel(1, xatt.as_uint());
    }
    StringItemPtr sitem;
    // If we are dealing with exclusive top level analyses then the attribute should only have a single
    // item that is a string
    if (m_resource->analyses().areTopLevelExclusive())
    {
      sitem = std::dynamic_pointer_cast<StringItem>(configAtt->item(0));
      if (!sitem)
      {
        smtkErrorMacro(
          m_logger,
          "Encountered invalid Attribute Representation for Top Level Exclusive Analyses "
            << " can not build any configurations!");
        m_resource->removeAttribute(configAtt);
        return;
      }
    }

    for (auto analysisNode = configNode.child("Analysis"); analysisNode;
         analysisNode = analysisNode.next_sibling("Analysis"))
    {
      if (m_resource->analyses().areTopLevelExclusive())
      {
        // Case where we are dealing with top level exclusive analyses
        if (sitem)
        {
          if (!setExclusiveAnalysisConfiguration(sitem, analysisNode, m_logger))
          {
            smtkErrorMacro(
              m_logger,
              "Encountered problem constructing configuration: " << configAtt->name()
                                                                 << " - configuration not built");
            m_resource->removeAttribute(configAtt);
            break;
          }
        }
      }
      else if (!setAnalysisConfigurationHelper<AttributePtr>(configAtt, analysisNode, m_logger))
      {
        smtkErrorMacro(
          m_logger,
          "Encountered problem constructing configuration: " << configAtt->name()
                                                             << " - configuration not built");
        m_resource->removeAttribute(configAtt);
        break;
      }
    }
  }
}
